A METHOD AND AN APPARATUS FOR THE PRODUCTION OF RIBBED PIPES

Description

[0001] The present invention relates to a method for the production of ribbed pipes, in which method a pressurized plastic material is fed through an extruder into a pipe moulding space defined by a mandrel, an end face of an extrusion sleeve and chill moulds moving in the direction of the central axis of the mandrel and defining a mould cavity surrounding the extrusion sleeve and the mandrel, the inner face of the chill moulds being provided with annular grooves.

[0002] German Offenlegungsschrift 2 362 444 discloses a method for the production of ribbed pipes wherein a plastic material is fed into a relatively small moulding space under a high pressure. The material can be fed into the moulding space by means of a high pressure, because the space is small and closed.

[0003] In order to provide the pipe with a desired shape, the feeding speed of the extruder and the speed of travel of the chill moulds have to be proportioned to each other in a determined way. If the feeding speed of the extruder is too high with respect to the speed of travel of the chill moulds, the pressure within the mould cavity rises to such an extent that the chill moulds are drawn apart from each other in the direction of their periphery. Plastic material is thereby squeezed into gaps formed between the chill moulds, which can be seen as axial ridges in the finished product.

[0004] The feeding speed of the extruder may also be too low with respect to the speed of travel of the chill moulds. Thereby the moulding space of the corrugating means is not filled up completely, which can be seen as incomplete ribs in the finished pipe.

[0005] In order to obtain pipes as flawless as possible, it is known to observe the pipe produced by the apparatus and alter the proportion between the speed of the extruder and that of the chill moulds as soon as deviations in the shape of the pipe are detected, cf. Swedish Published Specification 381 001.

[0006] A disadvantage of this method is the slow adjustment, because the adjustment cannot be commenced until the apparatus already has been producing a defective product for some time. Furthermore, the extent of the correction is difficult to estimate, wherefore it may take a long time before the apparatus again produces flawless pipe.

[0007] The object of the present invention is to provide a method for the production of ribbed pipes, which enables an accurate adjustment without any delay already at the moulding stage of the pipe. The method according to the invention is characterized in that the pressure of the material contained in the moulding space is measured, and that the feeding speed of the extruder and/or the speed of travel of the chill moulds is adjusted on the basis of the measured pressure.

[0008] By measuring the pressure of the material contained in the moulding space, information is obtained about the possible deviations already at the stage of the process when the pipe is being moulded, by virtue of which the adjustment can be effected in good time. For this reason it is possible to completely avoid the formation of defective pipes, which is economically beneficial. Since the measuring of the pressure of the moulding space also gives direct information on the strain exerted on the chill moulds, it is relatively easy to estimate the extent of the correction, so that the right correction can be made immediately.

[0009] The invention is also concerned with an apparatus for the production of ribbed pipes, comprising an extruder formed by a mandrel positioned on the central axis of the appratus, and an extrusion sleeve surrounding the mandrel, a ring-shaped nozzle being defined by the mandrel and the extrusion sleeve for the feeding of a pressurized plastic material; and corrugating means formed by a mandrel part positioned outside the extrusion sleeve and chill mould surrounding the extrusion sleeve and the mandrel and arranged to move in the direction of the central axis of the mandrel, the chill moulds,an end face of the extrusion sleeve and the mandrel defining therebetween a pipe moulding space.

[0010] The apparatus according to the invention is characterized in that a pressure sensor is attached to the end face of the extrusion sleeve defining the pipe moulding space or to the surface of the mandrel, which pressure sensor communicates with a device for adjusting the feeding speed of the extruder and/or the speed of travel of the chill moulds.

[0011] In view of the simplicity of the structure, it is advisable to position the pressure sensor on the end face of the extrusion sleeve or on the surface of the mandrel.

[0012] The apparatus according to the invention can be especially well applied to an extruder in which at least part of the end face of the extrusion sleeve is resilient. Thereby the apparatus can be so constructed that the resilient surface is formed by the end face of a spring-loaded or pressure-medium-loaded ring, and that the pressure sensor is arranged to sense the spring force of the spring or the pressure of the pressure medium. This embodiment has the advantage that the resilient surface immediately compensates for short-term pressure variations occurring within the moulding space, whereas the adjustment carried out on the basis of the information obtained from the pressure sensor has a more long-run effect.

[0013] The invention will be described in more detail in the following with reference to the attached drawing, wherein

Figure 1 is a general view of an apparatus for the production of ribbed pipes,

Figure 2 is an enlarged longitudinal sectional view of a detail of the apparatus, and

Figure 3 is a partial view of another embodiment of the invention.

[0014] The apparatus shown in Figure 1 comprises chill moulds 1 and 2 which move around along two endless paths and which meet each other within the area of guide rails 3 so as to form a cylindrical mould. An extrusion sleeve 4 connected to an extrusion head 6 of an extruder 5 extends into said mould. It is also shown in Figure 1 how a finished pipe 7 protrudes from the other end of the mould formed by the chill moulds.

[0015] Figure 2 is a more detailed view of those parts of the apparatus which take part in the moulding of the pipe. A spindle 8 is positioned on the central axis of the apparatus, the spindle comprising a part having a constant diameter and a substantially conically enlarging part 9. Another constant-diameter part 10 is positioned after the enlarging quart of the mandrel, which part 10 is provided with cooling means for stiffening the pipe.

[0016] The extrusion sleeve 4 and the mandrel part 9 define therebetween a ring nozzle 11 wherethrough the plasticized material, e.g. plastic material, is fed into a moulding space 12 defined between the end face of the extrusion sleeve 4, the chill moulds 1,2, and the mandrel part 9. In order to obtain a pipe having a ribbed outer face, the inner surface of the chill moulds is provided with mutually spaced grooves 13 into which the plastic material is forced for the formation of the ribs. The chill moulds 1,2 and the mandrel part protruding from the extrusion sleeve form the corrugating means of the apparatus.

[0017] According to the invention the pressure of the material contained in the moulding space 12 is measured by means of a pressure sensor 14 which is positioned on the surface of the mandrel part 9 in the embodiment of Figure 2. The sensor communicates with a device 16 by means of a cable 15, which device adjusts the speed of the driving means (not shown) of she extruder 5 and/or the speed of she driving means 17 of the chill moulds 1, 2.

[0018] The apparatus shown in Figures 1 and 2 operates in the following way.

[0019] When the pressure of the moulding space 12 deviates from its set value, the pressure sensor 14 informs the device 16, which adjusts the speed of the extruder 5 or the chill moulds 1, 2. When the pressure of the moulding space is too high, the speed of the extruder is retarded or the chill moulds are accelerated, and when the pressure is too low, the extruder is accelerated or the chill moulds are retarded. Of course, these steps can be combined so that the extruder and the chill moulds are influenced simultaneously.

[0020] It has to be noted in this connection that the pressure of the moulding space 12 varies abruptly and periodically due to the shape of the inner face of the chill moulds. This is because the volume of the moulding space 12 varies considerably, depending on whether a groove 13 of a chill mould or a rib positioned between the grooves is positioned at the end face of the extrusion sleeve 4. It is obvious that the effects of this pressure variation have to be eliminated in the device 6 in order to prevent constant changes in the speed of the extruder and the chill moulds.

[0021] However, the above-mentioned periodical pressure variation can be utilized for the determination of the degree of fullness of the grooves 13. This is possible because the pressure changes are great when the grooves are filled up completely and small when the grooves are filled up incompletely. By measuring the extent of the pressure variation, information is obtained on the degree of fullness of the grooves, which is of crucial importance for the production of pipes.

[0022] Figure 3 shows another embodiment of the apparatus according to the invention. In this case the outer portion of the end face of the extrusion sleeve 4 is formed by a ring 18 moving in the direction of the axis of the mandrel. A spiral spring 19 surrounding the inner portion of the extrusion sleeve is positioned behind the ring 18, and the pressure sensor 14 is positioned behind the spiral spring. The pressure sensor bears on a shoulder of the extrusion sleeve.

[0023] In the embodiment described above, the ring 18 is displaced in the direction of the axis of the mandrel as a result of the abrupt and periodical pressure changes caused by the grooves 13, wherefore the pressure of the material contained in the moulding space remains substantially unchanged. If the average pressure of the moulding space deviates from the desired value, this causes a reduction or an increase in the press force exerted on the pressure sensor by the spring. According to the invention the speed of the extruder or the chill moulds is varied on the basis of this change.

[0024] If desired, the pressure sensor can be positioned both in the extrusion sleeve and in the mandrel, and it can be positioned at a distance from the surface of these means, provided that it is able to sense the pressure of the material contained in the moulding space. The spring 19 may be replaced by a member filled with a pressure medium.

Claims

1. A method for the production of ribbed pipes, in which method a pressurized plastic material is fed through an extruder (5) into a pipe moulding space (12) defined by a mandrel (8 to 10), an end face of an extrusion sleeve (4) and chill moulds (1,2) moving in the direction of the central axis of the mandrel and defining a mould cavity surrounding the extrusion sleeve and the mandrel, the inner face of the chill moulds being provided with annular grooves (13), characterized in that the pressure of the material contained in the moulding space (12) is measured, and that the feeding speed of the extruder (5) and/or the speed of travel of the chill moulds (1,2) is adjusted on the basis of the measured pressure.

2. A method according to claim 1, characterized in that the extent of the periodical changes in the pressure of the moulding space (12) due to the grooves (13) of the chill moulds and the ribs positioned between the grooves is measured for the determination of the degree of fullness of the grooves.

3. An apparatus for the production of ribbed pipes, comprising an extruder (5) formed by a mandrel (8,9) positioned on the central axis of the apparatus, and an extrusion sleeve (4) surrounding the mandrel, a ring-shaped nozzle (11) being defined by the mandrel and the extrusion sleeve for the feeding of a pressurized plastic material; and corrugating means formed by a mandrel part (9,10) positioned outside the extrusion sleeve and chill moulds (1,2) surrounding the extrusion sleeve and the mandrel and arranged to move in the direction of the central axis of the mandrel (8 to 10), the chill moulds, an end face of the extrusion sleeve and the mandrel defining therebetween a pipe moulding space (12), characterized in that a pressure sensor (14) is attached to the end face of the extrusion sleeve (4) defining the pipe moulding space (12) or to the surface of the mandrel (8,9), which pressure sensor communicates with a device (16) for adjusting the feeding speed of the extruder (5) and/or the speed of travel of the chill moulds (1,2).

4. An apparatus according to claim 3, characterized in that the pressure sensor (14) is positioned on the end face of the extrusion sleeve (4) or on the surface of the mandrel (8,9).

5. An apparatus according to claim 3, wherein at least part (18) of the end face of the extrusion sleeve is resilient, characterized in that the resilient surface is formed by the end face of a spring-loaded or pressure-medium-loaded ring (18) and that the pressure sensor (14) is arranged to sense the spring force of the spring (19) or the pressure of the pressure medium.

Ansprüche

1. Verfahren zur Herstellung von Rippenrohren, bei welchem Verfahren unter Druck gesetztes Kunststoffmaterial durch einen Extruder (5) in einen Rohr-Formungsraum (12) geleitet wird, der durch einen Dorn (8 bis 10), eine Stirnfläche einer Mundstückhülse (4) und Kokillen (1, 2) festgelegt ist, die sich in der Richtung der Mittenachse des Dorns bewegen und einen Formraum festlegen, der die Mundstückhülse und den Dorn umgibt, wobei die Innenfläche der Kokillen mit ringförmigen Nuten (13) versehen ist, dadurch gekennzeichnet, daß der Druck des in dem Formraum (12) enthaltenen Materials gemessen wird und daß die Fördergeschwindigkeit des Extruders (5) und/oder die Laufgeschwindigkeit der Kokillen (1, 2) auf der Basis des gemessenen Drucks eingestellt wird.

2. Verfahren nach Anspruch 1, dadurch gekennzeichnet, daß das Ausmaß der periodischen Änderungen im Druck des Formungsraums (12) infolge der Nuten (13) der Kokillen und der zwischen den Nuten angeordneten Rippen für die Bestimmung des Füllungsgrades der Nuten gemessen wird.

3. Vorrichtung für die Herstellung von Rippenrohren, mit einem Extruder (5), der durch einen Dorn (8, 9), der auf der Mittenachse der Vorrichtung angeordnet ist, und eine Mundstückhülse (4) gebildet ist, die den Dorn umgibt, wobei eine ringförmige Düse (11) durch den Dorn und die Mundstückhülse für die Zuführung eines unter Druck stehenden Kunststoffmaterials festgelegt ist; und mit einer Rippungseinrichtung, die durch einen Dornteil (9, 10), der außerhalb der Mundstückhülse angeordnet ist, und Kokillen (1, 2) gebildet ist, die die Mundstückhülse und den Dorn umgeben und so angeordnet sind, daß sie sich in Richtung der Mittenachse des Dorns (8 bis 10) bewegen, wobei die Kokillen, eine Stirnfläche der Mundstückhülse und der Dorn zwischen ihnen einen Rohr-Formungsraum (12) festlegen, dadurch gekennzeichnet, daß ein Druckfühler (14) an der Stirnfläche der Mundstückhülse (4), die den Rohr-Formungsraum (12) festlegt, oder der Oberfläche des Dorns (8, 9) befestigt sind, welcher Druckfühler mit einem Gerät (16) für die Einstellung der Fördergeschwindigkeit des Extruders (5) und/oder Laufgeschwindigkeit der Kokillen (1, 2) in Verbindung steht.

4. Vorrichtung nach Anspruch 3, dadurch gekennzeichnet, daß der Druckfühler (14) auf der Stirnfläche der Mundstückhülse (4) oder auf der Oberfläche des Dorns (8, 9) angeordnet ist.

5. Vorrichtung nach Anspruch 3, bei welcher mindestens ein Teil (18) der Stirnfläche der Mundstückhülse federnd ist, dadurch gekennzeichnet, daß die federnde Oberfläche durch die Stirnfläche eines federbelasteten oder druckmediumbelasteten Rings (18) gebildet ist, und daß der Druckfühler (14) so angeordnet ist, daß er die Federkraft der Feder (19) oder den Druck des Druckmediums erfaßt.

Revendications

1. Procédé pour la production de tuyaux à ailettes, dans lequel une matière synthétique, mise sous pression, est amenée par une extrudeuse (5) dans un espace de moulage de tuyau (12), défini par un mandrin (8 à 10), une face d'extrémité d'un manchon d'extrusion (4) et des moules refroidis (1,2) qui se déplacent dans la direction de l'axe central du mandrin et qui définissent une cavité de moulage, entourant le manchon d'extrusion et le mandrin, la face intérieure des moules refroidis étant pourvue de gorges annulaires (13), caractérisé en ce que la pression du matériau contenu dans l'espace de moulage (12) est mesurée et que la vitesse d'alimentation de l'extrudeuse (5) et/ou la vitesse de déplacement des moules refroidis (1,2) est (sont) ajustée(s) sur la base de la pression mesurée.

2. Procédé selon la revendication 1, caractérisé en ce que l'ampleur des fluctuations périodiques de la pression de l'espace de moulage (12) imputable aux gorges (13) des moules refroidis et aux nervures positionnées entre les gorges est mesurée en vue de déterminer le degré de remplissage des gorges.

3. Dispositif pour la production de tuyaux à ailettes, comprenant une extrudeuse (5), formée par un mandrin (8,9) positionné sur l'axe central de l'appareil, et un manchon d'extrusion (4) qui entoure le mandrin, une buse annulaire (11) étant définie par le mandrin et le manchon d'extrusion, pour l'amenée d'une matière synthétique sous pression; et des moyens ondulés, formés par une partie de mandrin (9,10) positionnée à l'extérieur du manchon d'extrusion, et des moules refroidis (1,2), qui entourent le manchon d'extrusion et le mandrin et sont disposés pour se déplacer en direction de l'axe central du mandrin (8 à 10), les moules refroidis, une face d'extrémité du manchon d'extrusion et le mandrin définissant entre eux un espace de moulage de tuyau (12), caractérisé en ce qu'un capteur de pression (14) est fixé à la face d'extrémité du manchon d'extrusion (4) définissant l'espace de moulage de tuyau (12) ou à la surface du mandrin (8,9), le capteur de pression communiquant avec un dispositif (16) d'ajustement de la vitesse d'alimentation de l'extrudeuse (5) et/ou la vitesse de déplacement des moules refroidis (1,2).

4. Dispositif selon la revendication 3, caractérisé en ce que le capteur de pression (14) est positionné sur la face d'extrémité du manchon d'extrusion (4) ou sur la surface du mandrin (8,9).

5. Dispositif selon la revendication 3, dans lequel au moins une partie (18) de la face d'extrémité du manchon d'extrusion est élastique, caractérisé en ce que la surface élastique est formée par la face d'extrémité d'une bague (18) chargée par un ressort ou par fluide sous pression, et que le capteur de pression (14) est disposé pour mesurer la force élastique du ressort (19) ou la pression du fluide sous pression.

Drawing